1.2 Exponents and scientific notation (Page 3/9)

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Write each of the following products with a single base. Do not simplify further.

${({(3 y)}^{8})}^{3}$
${(t^{5})}^{7}$
${({(- g)}^{4})}^{4}$

${(3 y)}^{24}$
$t^{35}$
${(- g)}^{16}$

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Using the zero exponent rule of exponents

Return to the quotient rule. We made the condition that $m > n$ so that the difference $m - n$ would never be zero or negative. What would happen if $m = n ?$ In this case, we would use the zero exponent rule of exponents to simplify the expression to 1. To see how this is done, let us begin with an example.

\frac{t^{8}}{t^{8}} = \frac{t^{8}}{t^{8}} = 1

If we were to simplify the original expression using the quotient rule, we would have

\frac{t^{8}}{t^{8}} = t^{8 - 8} = t^{0}

If we equate the two answers, the result is $t^{0} = 1.$ This is true for any nonzero real number, or any variable representing a real number.

a^{0} = 1

The sole exception is the expression $0^{0} .$ This appears later in more advanced courses, but for now, we will consider the value to be undefined.

A General Note

The zero exponent rule of exponents

For any nonzero real number $a,$ the zero exponent rule of exponents states that

a^{0} = 1

Using the zero exponent rule

Simplify each expression using the zero exponent rule of exponents.

$\frac{c^{3}}{c^{3}}$
$\frac{−3 x^{5}}{x^{5}}$
$\frac{{(j^{2} k)}^{4}}{(j^{2} k) \cdot {(j^{2} k)}^{3}}$
$\frac{5 {(r s^{2})}^{2}}{{(r s^{2})}^{2}}$

Use the zero exponent and other rules to simplify each expression.

$\begin{matrix} \frac{c^{3}}{c^{3}} & = & c^{3 - 3} \\ = & c^{0} \\ = & 1 \end{matrix}$
$\begin{matrix} \frac{−3 x^{5}}{x^{5}} & = & −3 \cdot \frac{x^{5}}{x^{5}} \\ = & −3 \cdot x^{5 - 5} \\ = & −3 \cdot x^{0} \\ = & −3 \cdot 1 \\ = & −3 \end{matrix}$
$\begin{matrix} \frac{{(j^{2} k)}^{4}}{(j^{2} k) \cdot {(j^{2} k)}^{3}} & = & \frac{{(j^{2} k)}^{4}}{{(j^{2} k)}^{1 + 3}} & Use the product rule in the denominator . \\ = & \frac{{(j^{2} k)}^{4}}{{(j^{2} k)}^{4}} & Simplify . \\ = & {(j^{2} k)}^{4 - 4} & Use the quotient rule . \\ = & {(j^{2} k)}^{0} & Simplify . \\ = & 1 \end{matrix}$
$\begin{matrix} \frac{5 {(r s^{2})}^{2}}{{(r s^{2})}^{2}} & = & 5 {(r s^{2})}^{2 - 2} & Use the quotient rule . \\ = & 5 {(r s^{2})}^{0} & Simplify . \\ = & 5 \cdot 1 & Use the zero exponent rule . \\ = & 5 & Simplify . \end{matrix}$

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Try It

Simplify each expression using the zero exponent rule of exponents.

$\frac{t^{7}}{t^{7}}$
$\frac{{(d e^{2})}^{11}}{2 {(d e^{2})}^{11}}$
$\frac{w^{4} \cdot w^{2}}{w^{6}}$
$\frac{t^{3} \cdot t^{4}}{t^{2} \cdot t^{5}}$

$1$
$\frac{1}{2}$
$1$
$1$

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Using the negative rule of exponents

Another useful result occurs if we relax the condition that $m > n$ in the quotient rule even further. For example, can we simplify $\frac{h^{3}}{h^{5}} ?$ When $m < n$ —that is, where the difference $m - n$ is negative—we can use the negative rule of exponents to simplify the expression to its reciprocal.

Divide one exponential expression by another with a larger exponent. Use our example, $\frac{h^{3}}{h^{5}} .$

\begin{matrix} \frac{h^{3}}{h^{5}} & = & \frac{h \cdot h \cdot h}{h \cdot h \cdot h \cdot h \cdot h} \\ = & \frac{h \cdot h \cdot h}{h \cdot h \cdot h \cdot h \cdot h} \\ = & \frac{1}{h \cdot h} \\ = & \frac{1}{h^{2}} \end{matrix}

If we were to simplify the original expression using the quotient rule, we would have

\begin{matrix} \frac{h^{3}}{h^{5}} & = & h^{3 - 5} \\ = & h^{−2} \end{matrix}

Putting the answers together, we have $h^{−2} = \frac{1}{h^{2}} .$ This is true for any nonzero real number, or any variable representing a nonzero real number.

A factor with a negative exponent becomes the same factor with a positive exponent if it is moved across the fraction bar—from numerator to denominator or vice versa.

\begin{matrix} a^{- n} = \frac{1}{a^{n}} & and & a^{n} = \frac{1}{a^{- n}} \end{matrix}

We have shown that the exponential expression $a^{n}$ is defined when $n$ is a natural number, 0, or the negative of a natural number. That means that $a^{n}$ is defined for any integer $n .$ Also, the product and quotient rules and all of the rules we will look at soon hold for any integer $n .$

A General Note

The negative rule of exponents

For any nonzero real number $a$ and natural number $n,$ the negative rule of exponents states that

a^{- n} = \frac{1}{a^{n}}

Using the negative exponent rule

Write each of the following quotients with a single base. Do not simplify further. Write answers with positive exponents.

$\frac{θ^{3}}{θ^{10}}$
$\frac{z^{2} \cdot z}{z^{4}}$
$\frac{{(−5 t^{3})}^{4}}{{(−5 t^{3})}^{8}}$

$\frac{θ^{3}}{θ^{10}} = θ^{3 - 10} = θ^{−7} = \frac{1}{θ^{7}}$
$\frac{z^{2} \cdot z}{z^{4}} = \frac{z^{2 + 1}}{z^{4}} = \frac{z^{3}}{z^{4}} = z^{3 - 4} = z^{−1} = \frac{1}{z}$
$\frac{{(−5 t^{3})}^{4}}{{(−5 t^{3})}^{8}} = {(−5 t^{3})}^{4 - 8} = {(−5 t^{3})}^{−4} = \frac{1}{{(−5 t^{3})}^{4}}$

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Questions & Answers

calculate molarity of NaOH solution when 25.0ml of NaOH titrated with 27.2ml of 0.2m H2SO4

Gasin Reply

what's Thermochemistry

rhoda Reply

the study of the heat energy which is associated with chemical reactions

Kaddija

How was CH4 and o2 was able to produce (Co2)and (H2o

Edafe Reply

explain please

Victory

First twenty elements with their valences

Martine Reply

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asue Reply

what is atom

asue

what is the best way to define periodic table for jamb

Damilola Reply

what is the change of matter from one state to another

Elijah Reply

what is isolation of organic compounds

IKyernum Reply

what is atomic radius

ThankGod Reply

Read Chapter 6, section 5

Kareem

Atomic radius is the radius of the atom and is also called the orbital radius

Kareem

atomic radius is the distance between the nucleus of an atom and its valence shell

Amos

Read Chapter 6, section 5

paulino

Bohr's model of the theory atom

Ayom Reply

is there a question?

when a gas is compressed why it becomes hot?

ATOMIC

It has no oxygen then

Goldyei

read the chapter on thermochemistry...the sections on "PV" work and the First Law of Thermodynamics should help..

Which element react with water

Mukthar Reply

Mgo

Ibeh

an increase in the pressure of a gas results in the decrease of its

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definition of the periodic table

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Source: OpenStax, Algebra and trigonometry. OpenStax CNX. Nov 14, 2016 Download for free at https://legacy.cnx.org/content/col11758/1.6

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